RolandFest In honour of Roland Windmolders, one of the longest serving members of the collaborations studying muon physics at CERN. T.Sloan Lancaster University.

Slides:

Advertisements

Similar presentations

The COMPASS spin physics program Rencontres de Moriond S. Panebianco The COMPASS spin physics program Stefano Panebianco (CEA/Saclay) on behalf of the.

Advertisements

ΔG/G Extraction From High- P t Hadron Pairs at COMPASS Ahmed El Alaoui Nuclear Physics School, Erice, September 2007 On Behalf Of COMPASS Collaboration.

DIS from EMC to H1 T.Sloan, University of Lancaster. QCDN-06 Rome 2006 EMC proposal ’72-74 Build Run NMC (3 rd generation) SMC (4 th.

1 First Measurement of the Structure Function b 1 on Tensor Polarized Deuteron Target at HERMES A.Nagaitsev Joint Institute for Nuclear Research, Dubna.

Determination of the gluon polarisation at COMPASS & RHIC Sébastien Procureur (CEA - Saclay) Determination of  G at COMPASS & RHICPAVI06, Milos S.Procureur.

MeAsurement of F 2 n /F 2 p, d/u RAtios and A=3 EMC Effect in Deep Inelastic Electron Scattering Off the Tritium and Helium MirrOr Nuclei J. Gomez for.

ACHIEVEMENTS OF THE TEVATRON FIXED-TARGET PROGRAM Heidi Schellman Northwestern University 1 6/11/12.

May 2005CTEQ Summer School1 Global Analysis of QCD and Parton Distribution Functions Dan Stump Department of Physics and Astronomy Michigan State University.

1 Baryonic Resonance Why resonances and why  * ? How do we search for them ? What did we learn so far? What else can we do in the.

J. Seele - WWND 1 The STAR Longitudinal Spin Program Joe Seele (MIT) for the Collaboration WWND 2009.

Basic Measurements: What do we want to measure? Prof. Robin D. Erbacher University of California, Davis References: R. Fernow, Introduction to Experimental.

Preliminary Ideas for a Near Detector at a Neutrino Factory Neutrino Factory Scoping Study Meeting 23 September 2005 Paul Soler University of Glasgow/RAL.

Roberto Francisco Pérez Benito On behalf the HERMES Collaboration European Graduate School Lecture Week on Hadron Physics Jyväskylä, Aug 25-29, 2008 HERMES.

(Concluding) Remarks Ken Imai (JAEA/J-PARC) KEK Workshop on Hadron Physics with high-momentum beams at J-PARC

Introduction of Nuclear Physics. How can we probe the structure in the smaller scale? Discovery of nuclear structure Development of nuclear physics –Nuclear.

Small x issues in nucleon spin structure (focus: polarized gluon distribution) Abhay Deshpande Stony Brook University RIKEN BNL Research Center December.

1 Recent results on Polarized Quark and Gluon Distributions at COMPASS I.Savin, JINR, Dubna on behalf of the COMPASS Collaboration Outline 1. Introduction.

Possibilities to perform DVCS measurement at COMPASS E. Burtin CEA-Saclay Irfu/SPhN On Behalf of the COMPASS Collaboration DIS Madrid - 29 April,

P Spring 2003 L9Richard Kass Inelastic ep Scattering and Quarks Elastic vs Inelastic electron-proton scattering: In the previous lecture we saw that.

Parton Model & Parton Dynamics Huan Z Huang Department of Physics and Astronomy University of California, Los Angeles Department of Engineering Physics.

Xiaodong Jiang Gluon spin with longitudinal asymmetries at RHIC. Parton angular motion - transverse spin asymmetries. Spin at RHIC : p+p. Spin at JLab:

Status Report of HERMES Pasquale Di Nezza (on behalf of HERMES Collaboration) First measurement of transversity Exotic baryons: the pentaquark The spectrometer.

Hadron physics Hadron physics Challenges and Achievements Mikhail Bashkanov University of Edinburgh UK Nuclear Physics Summer School I.

Electron Deuteron Scattering with H1 at HERA ■ Introduction ■ Physics with deuterons ■ H1 upgrade for ed running ■ Possible further studies and the necessary.

PHYSICS RESULTS FROM COMPASS F. Bradamante University of Trieste and INFN Trieste on behalf of the Collaboration Workshop on Hadron Structure at J-PARC.

Particle Physics Chris Parkes Experimental QCD Kinematics Deep Inelastic Scattering Structure Functions Observation of Partons Scaling Violations Jets.

Jan P. NassalskiRECFA, Warsaw, Polish participation in fixed target experiments at CERN ( ) NA48 & NA48.1 running NA49 NA59 (COMPASS)

PANIC05 M. Liu1 Probing the Gluon Polarization with A LL of J/  at RHIC Ming X. Liu Los Alamos National Lab (PHENIX Collaboration)

Determining Strangeness Quark Spin in Neutrino-Nucleon Scattering at J-PARC T.-A. Shibata (Tokyo Tech) in collaboration with N. Saito (Kyoto Univ) and.

16/04/2004 DIS2004 WGD1 Jet cross sections in D * photoproduction at ZEUS Takanori Kohno (University of Oxford) on behalf of the ZEUS Collaboration XII.

Spin structure of the nucleon

NEUTRINO PHYSICS 1. Historical milestones 2. Neutrinos at accelerators 3. Solar and atmospheric neutrinos 4. Neutrino oscillations 5. Neutrino astronomy.

Physics with Muon and Hadron Beams at COMPASS Reiner Geyer for the COMPASS collaboration Hadron Structure 2009.

Spin physics at the SMC Spin Muon Collaboration A. Magnon (CEA-Saclay/IRFU & COMPASS)

F.-H. Heinsius (Universität Freiburg/CERN) Introduction Gluon polarization in the nucleon Transverse spin distribution Newest Results from the Experiment.

COMPASS FRC – November 29, COMPASS FRC Novembre 29, 2013 COMPASS – phase II MoU Technical Coordinator Preparations for 2014 run Publications.

The Quark Structure of the Nucleon Inti Lehmann & Ralf Kaiser University of Glasgow Cosener’s House Meeting 23/05/2007 Nucleon Structure Generalised Parton.

F.-H. Heinsius (Universität Freiburg) on behalf of the COMPASS collaboration Gluon polarization measurements at DIS 2004, Štrbské Pleso,

Measurements with Polarized Hadrons T.-A. Shibata Tokyo Institute of Technology Aug 15, 2003 Lepton-Photon 2003.

POLARISATION IN QCD -  anomalous magn. moment, g-2 - Spin structure of the nucleon  q,  G, GPD,  t q.

HERMES によるパートン helicity 分布関数の QCD 解析 Tokyo Inst. of Tech. 1. Quantum Chromo-Dynamics (QCD) 2. Parton Helicity Distribution and Nucleon Spin Problem 3.

Lara De Nardo DIS 2007 Measurement of the spin structure functions g 1 and g 1 at HERMES Lara De Nardo TRIUMF/DESY pd.

Measurement of Flavor Separated Quark Polarizations at HERMES Polina Kravchenko (DESY) for the collaboration  Motivation of this work  HERMES experiment.

Measuring the gluon polarization F.Kunne – CEA Saclay 10 th International Symposium on Meson-Nucleon Physics and the Structure of the Nucleon Beijing,

Polarised DIS Experiment Gerhard Mallot. G. Mallot/CERN Spin Summer School, BNL, 2004 Plan Lecture I –introduction –kinematics –the cross section –structure.

A. Bertolin on behalf of the H1 and ZEUS collaborations Charm (and beauty) production in DIS at HERA (Sezione di Padova) Outline: HERA, H1 and ZEUS heavy.

F.-H. Heinsius (Universität Freiburg) on behalf of the COMPASS collaboration Gluon polarization measurements at DIS 2004, Štrbské Pleso,

1 An investigation of the Spin structure of the proton in D.I.S. of polarised muons on polarised protons by The European Muon Collaboration (EMC) 1989.

M. Cobal, PIF 2006/7 Quarks. Quarks are s = ½ fermions, subject to all kind of interactions. They have fractional electric charges Quarks and their bound.

1/28 VISITS TO COMPASS / NA58 Seminar for guides 9 March 2005 Susanne Koblitz Gerhard Mallot.

1 DIS 2007, Munich, April 19, 2007 Aram Kotzinian Beyond Collins and Sivers: further measurements of the target transverse spin-dependent azimuthal asymmetries.

Measurements of Generalized Parton Distributions with COMPASS at CERN (CERN-SPSC , SPSC-EoI-005) Letter of Intent, in framework of the theme /2008.

Near Detector Tasks EuroNu Meeting, CERN 26 March 2009 Paul Soler.

Future Drell-Yan program of the COMPASS cllaboration Norihiro DOSHITA (Yamagata University) On behalf of the COMPASS collaboration 2016/7/31N. Doshita.

Spin physics with COMPASS

HERa MEasurement of Spin

Measurements of ΔG Focus on COMPASS data ΔG from scaling violations

COMPASS results on inclusive and semi–inclusive polarised DIS

Measurements of quark transversity and orbital motion in hard scattering Yoshiyuki Miyachi Tokyo Institute of Technology.

Plans for nucleon structure studies at PANDA

Study of spin structure of nucleon in COMPASS - measurement of G/G

Prague 2007 Collins and Sivers asymmetries

Study of Strange Quark in the Nucleon with Neutrino Scattering

Katarzyna Kowalik (LBNL) For the STAR Collaboration

The gluon polarisation ΔG/G at COMPASS

Measurements of ΔG Focus on COMPASS data ΔG from scaling violations

25.5 days at 11.0 GeV & 6.5 days at 8.8 GeV = 32 days total

Determination of the gluon polarisation

Nucleon spin and structure studies with COMPASS

ΔG/G Extraction From High-Pt Hadron Pairs at COMPASS

Presentation transcript:

RolandFest In honour of Roland Windmolders, one of the longest serving members of the collaborations studying muon physics at CERN. T.Sloan Lancaster University 6 Feb 2013

Muon Physics at CERN- Its 40 Year History Muon experiments at CERN SPS proposed 1972 EMC 1974 to 1986 NMC 1986 to 1990 SMC 1990 to mid-1990s COMPASS mid 90s - present Roland has been working here since ~1980 i.e more than 30 years. He has been an important member of each of these collaborations which studied both spin-dependent and spin-independent muon physics. I think he worked on the Mirabelle bubble chamber before that (I remember his cat Mirabelle – she used to like lettuce)

European Muon Collaboration (EMC) Motivated by discovery of large DIS cross section at SLAC (1969) (Nobel Prize 1990) 1972 Gabathuler, Clifft – Brasse,Gayler propose a muon beam at the then new CERN SPS. European Muon Collaboration (EMC) born from these two groups – proposal written signed by 48 people Beam and apparatus built – 1982 NA2 experiment. (Collaboration of ~100 physicists).

NA2 - The EMC Forward Spectrometer

Areas of Work Inclusive deep inelastic scattering – measurement of structure functions (led to discovery of EMC effect). Final state hadrons (– Lund Model). Multimuons – (charm production was mediated by photon gluon fusion). Should have measured spin structure functions but polarised target was not ready.

The Multimuon Group Discover that charm production mediated by photo-gluon fusion. Semileptonic decay of charmed quark gives 2 or 3 muon events. Ratio of number of 3 mu to 2 mu events should be branching ratio.

Dimuons Trimuons

The EMC Effect Quark structure of bound nucleons different from free nucleons.

Further study of final state hadrons – NA9 experiment Several new institutions joined EMC for this phase including Univ. of Mons (and Roland) ~ data taking Collaboration grew to ~150 physicists

Picture of NA9/NA28 Apparatus

NA9 Identified particle spectra.

Discover target and projectile fragmentation – predicted by Lund model (became PYTHIA)

EMC effect and shadowing (NA28)

return to forward spectrometer + polarised target. Many members of the collaboration wanted to continue running NA9 and NA28 and abandon (postpone) polarised target measurements. Argument was made that we understand the proton spin structure via the quark parton model and measuring the spin structure functions would not be fruitful. One had to have sympathy with that argument at the time since baryon magnetic moments were well predicted by the model.

Quark parton model applied to spin asymmetry.

EMC Final Phase – polarised structure functions 1984

Polarised Structure Functions Data disagreed with Quark Parton model Result implied that quarks only carried a fraction of the proton spin. Spin crisis.

The spin crisis

First explanations of spin deficit.

Subsequent collaborations – NMC SMC

COMPASS δg ~ 0

EMC – a happy and sociable collaboration

Desperate for shift people

Sometimes too many on shift – e.g. last EMC shift

Concluding remarks I could only find 1 picture with Roland His style is to work quietly in the background without fuss. But always at the forefront when furthering the collaboration’s interest and understanding the physics (QCD fits, D state of deuteron, new methods of determining fragmentation functions). As well as this he is a learned man with an extensive knowledge of history and art. His retirement will allow to further these interests. So, Roland, it has been a privilege to work you – wish you all the very best to you and to Madeleine for a well earned, long and happy retirement.

Spare stuff.

Dimuons

Trimuons

200 GeV data Proves R~0 i.e. Jp=0- or 1- gluon

Structure Functions Study inclusive muon scattering, Led to discovery of EMC effect, shadowing in DIS, Spin problem.

New EMC experiment Parasitic Experiment during polarised target run.

EMC Papers Heavily cited

An EMC paper with 8 Citations Search for D0 to mu mu (flavour changing neutral current )

EMC The European Muon Collaboration by T.Sloan, University of Lancaster Oct Brief History 1974 Proposal written by MIF and 47 others Apparatus Built NA2 i.e. Forward spectrometer detector NA9 Forward and wide angle detectors Polarised target

Shadowing (NA28 phase of EMC) Dedicated Experiment during NA9 Pioneered the use of FastBus

Muon experiments at CERN SPS proposed 1972 EMC 1974 to 1986 NMC 1986 to 1990 SMC 1990 to ? COMPASS ?- present COMPASS members who were members of original EMC G. Baum, B. Badelek, D. von Harrach, E. Kabuss, E. Rondio, A. Sandacz and Roland Windmolders. Roland has been working here since about He has been an important member of each of the collaborations.